Why H2O XGBoost predicts NaN?

Question

The dataset has 177927 rows and 820 columns of one-hot encoded features. There is no NaN in the dataset. I want to build two H2O XGBoost models for regression on two kinds of labels ('count_5' and 'count_overlap') respectively, using the same feature matrix. I use python 3.8 on Ubuntu.

'count_5' has 4 unique numeric labels (from 0 to 4).

label	frequency
0	159466
1	18102
2	346
3	13

'count_overlap' has 2416 unique numeric labels.

label	count_overlap
0	53077
1	9989
2	5430
3	3224
4	2570
...	...
6558	1
2257	1
2385	1
2204	1
2047	1

Here is the main part of code for both models:

# Generate H2O frame
train = h2o.H2OFrame(mydf)
y = label_name
X = list(train.columns)
X.remove(y)
train[y] = train[y].asnumeric() 

# Model
estimator = H2OXGBoostEstimator(
            seed=1,
            distribution="poisson",
            model_id='XGB_default',
            keep_cross_validation_predictions=True,
            keep_cross_validation_fold_assignment=True,
            nfolds=2,
        )
estimator.train(X, y, train)

# save predictions
y_pred = estimator.cross_validation_holdout_predictions()
y_true = train[y]
y_true_pd = h2o.as_list(y_true)
y_pred_pd = h2o.as_list(y_pred)

# performance
estimator.cross_validation_metrics_summary().as_data_frame()

The H2O XGBoost model on 'count_5' gave reasonable results:

Training: Label: count_5 Model: XGB xgboost Model Build progress: |███████████████████████████████████████████| 100%

	mean	sd	cv_1_valid	cv_2_valid
mae	0.20095341	2.6120833E-4	0.20076871	0.20113811
mean_residual_deviance	0.74664176	0.0035013587	0.74911755	0.7441659
mse	0.11081107	0.0011397477	0.11161699	0.11000515
r2	-0.027853519	9.893299E-4	-0.027153956	-0.02855308
residual_deviance	0.74664176	0.0035013587	0.74911755	0.7441659
rmse	0.33288077	0.0017119459	0.3340913	0.33167022
rmsle	0.22899812	5.8065885E-4	0.22940871	0.22858754

Scoring History:

timestamp	duration	number_of_trees	training_rmse	training_mae	training_deviance
2021-01-13 13:35:09	15.256 sec	0.0	0.506659	0.503162	1.158219
2021-01-13 13:35:12	18.632 sec	1.0	0.433015	0.422635	1.004022
2021-01-13 13:35:12	18.830 sec	2.0	0.387392	0.363154	0.899638
2021-01-13 13:35:13	19.034 sec	3.0	0.360412	0.319287	0.830496
... ...	... ...	... ...	... ...	... ...	... ...
2021-01-13 13:35:15	21.244 sec	14.0	0.325060	0.203695	0.706665
2021-01-13 13:35:15	21.452 sec	15.0	0.324720	0.202657	0.704868
2021-01-13 13:35:16	22.861 sec	50.0	0.311705	0.191559	0.649280

Here are the y_true ('count_5') and y_pred

count_5	y_pred
0	0.098148
1	0.129788
1	0.181357
0	0.037972
0	0.165198
...	... ...
0	0.156512
0	0.138887
1	0.257443
0	0.077034
0	0.037227

However, the H2O XGBoost model on 'count_overlap' gave NaN predictions without warning or error raised:

Training: Label: count_overlap Model: XGB xgboost Model Build progress: |███████████████████████████████████████████| 100%

	mean	sd	cv_1_valid	cv_2_valid
mae	NaN	0.0	NaN	NaN
mean_residual_deviance	NaN	0.0	NaN	NaN
mse	NaN	0.0	NaN	NaN
r2	NaN	0.0	NaN	NaN
residual_deviance	NaN	0.0	NaN	NaN
rmse	NaN	0.0	NaN	NaN
rmsle	NaN	0.0	NaN	NaN

timestamp	duration	number_of_trees	training_rmse	training_mae	training_deviance
2021-01-13 17:04:44	12.047 sec	0.0	415.741082	110.880732	154.986121
2021-01-13 17:04:47	15.042 sec	1.0	inf	inf	NaN

Here are the y_true ('count_overlap') and y_pred:

count_overlap	y_pred
0	NaN
1247	NaN
960	NaN
0	NaN
39	NaN
...	... ...
24	NaN
0	NaN
540	NaN
0	NaN
57	NaN

The questions are:

H2O XGBoost did quite well for the 'count_5' label. I also tried other H2O models. Random Forest, SVM, Deep Learning, and GLM all gave good results for both labels (no NaN at all). Why H2O XGBoost predicted NaN 'count_overlap' label? Is there any suggestion or solution?

Any help would be appreciated!!